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Query: UMLS:C0264733 (
ventricular dilatation
)
2,163
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Spontaneously hypertensive rats (SHR) of advanced age exhibit depressed myocardial contractile function and ventricular fibrosis, as stable compensated hypertrophy progresses to heart failure. Transition to heart failure in SHR aged 18-24 months was characterized by impaired left ventricular (LV) function,
ventricular dilatation
, and reduced ejection fraction without an increase in LV mass. Studies of papillary muscles from SHR with failing hearts (SHR-F), SHR without failure (SHR-NF), and age-matched Wistar Kyoto (WKY) rats allowed examination of changes in the mechanical properties of myocardium during the transition to heart failure. Papillary muscles of SHR-F exhibited increased fibrosis, impaired contraction, and decreased myocyte fractional area. These findings in papillary muscles were correlated with a higher concentration of hydroxyproline and increased histological evidence of fibrosis in the LV free wall. While a depression in active tension accompanied these structural alterations in papillary muscles, it was not evident when active tension was normalized to myocyte fractional area. Together, these data suggest that individual myocyte function may be preserved but that myocyte loss and replacement by extracellular matrix contribute substantially to the decrement in active tension. An absent or negative inotropic response to isoproterenol is observed in SHR-F and SHR-NF papillary muscles and may result in part from age-related alterations in beta-adrenergic receptor dynamics and a shift from alpha- to
beta-myosin heavy chain
(MHC) protein. During the transition to failure, ventricles of SHR exhibit a marked increase in collagen and fibronectin mRNA levels, suggesting that an increase in the expression of specific extracellular matrix genes may contribute to fibrosis, tissue stiffness, and impaired function. Transforming growth factor-beta 1 (TGF-beta 1) mRNA levels also increase in SHR-F, consistent with the concept that TGF-beta 1 plays a key regulatory role in remodelling of the extracellular matrix gene during the transition to failure. The renin-angiotensin-aldosterone system is also implicated in the transition to failure: SHR treated with the angiotensin converting enzyme inhibitor captopril starting at 12 months of age did not develop heart failure during the 18-24 month observation period. Captopril treatment that was initiated after rats were identified with evidence of failure led to a reappearance of alpha-MHC mRNA but did not improve papillary muscle function. Research opportunities include investigation of apoptosis as a mechanism of cell loss, delineation of the regulatory roles of TGF-beta 1 and the renin-angiotensin-aldosterone system in matrix accumulation, and studies of proteinase cascades that regulate matrix remodelling.
...
PMID:The ageing spontaneously hypertensive rat as a model of the transition from stable compensated hypertrophy to heart failure. 868 57
The purpose of this study was to compare the angiotensin II type 1 receptor antagonist candesartan cilexitil (candesartan) and the angiotensin-converting enzyme inhibitor cilazapril on cardiac function, assessed by Doppler echocardiography and cardiac gene expression associated with cardiac remodeling, in rats with myocardial infarction. Candesartan or cilazapril was administered after myocardial infarction. At 1 and 4 weeks after myocardial infarction, cardiac function and mRNA expression in noninfarcted myocardium were analyzed. Candesartan and cilazapril equally prevented increases in hypertrophy in noninfarcted myocardium, left
ventricular dilatation
, and ejection fraction at 4 weeks. The E-wave/A-wave velocity ratio and the rate of E-wave deceleration, measures of diastolic function, increased to 9.2+/-0.6 and 26.3+/-2. 6 m/s2 at 1 week after myocardial infarction. Candesartan and cilazapril, administered at a dose of 1 mg/kg per day, prevented increases in E-wave/A-wave velocity ratio and E-wave deceleration at 1 and 4 weeks. Candesartan and cilazapril significantly suppressed increased mRNA expression of
beta-myosin heavy chain
, alpha-skeletal actin, and atrial natriuretic peptide in noninfarcted ventricle at 1 and 4 weeks and expression of collagen I and III at 4 weeks to a similar extent. When given at a dose of 10 mg/kg per day, both candesartan and cilazapril prevented cardiac dysfunction and gene expression to the same extent as when given at 1 mg/kg per day. In conclusion, Doppler echocardiography showed that candesartan and cilazapril equally improved systolic and diastolic function and that ventricular remodeling accompanied modulation of cardiac gene expression.
...
PMID:Effects of candesartan and cilazapril on rats with myocardial infarction assessed by echocardiography. 1020 31
Autosomal dominant familial hypertrophic cardiomyopathy (FHC) has variable penetrance and phenotype. Heterozygous mutations in MYH7 encoding
beta-myosin heavy chain
are the most common causes of FHC, and we proposed that "enhanced" mutant actin-myosin function is the causative molecular abnormality. We have studied individuals from families in which members have two, one, or no mutant MYH7 alleles to examine for dose effects. In one family, a member homozygous for Lys207Gln had cardiomyopathy complicated by left
ventricular dilatation
, systolic impairment, atrial fibrillation, and defibrillator interventions. Only one of five heterozygous relatives had FHC. Leu908Val and Asp906Gly mutations were detected in a second family in which penetrance for Leu908Val heterozygotes was 46% (21/46) and 25% (3/12) for Asp906Gly. Despite the low penetrance, hypertrophy was severe in several heterozygotes. Two individuals with both mutations developed severe FHC. The velocities of actin translocation (V(actin)) by mutant and wild-type (WT) myosins were compared in the in vitro motility assay. Compared with WT/WT, V(actin) was 34% faster for WT/D906G and 21% for WT/L908V. Surprisingly V(actin) for Leu908Val/Asp906Gly and Lys207Gln/Lys207Gln mutants were similar to WT. The apparent enhancement of mechanical performance with mutant/WT myosin was not observed for mutant/mutant myosin. This suggests that V(actin) may be a poor predictor of disease penetrance or severity and that power production may be more appropriate, or that the limited availability of double mutant patients prohibits any definitive conclusions. Finally, severe FHC in heterozygous individuals can occur despite very low penetrance, suggesting these mutations alone are insufficient to cause FHC and that uncharacterized modifying mechanisms exert powerful influences.
...
PMID:Molecular and phenotypic effects of heterozygous, homozygous, and compound heterozygote myosin heavy-chain mutations. 1552 30
Dilated cardiomyopathy (DCM) is the most frequent form of primary myocardial diseases and the third most common cause of heart failure. Clinically, DCM is characterized by a progressive course of
ventricular dilatation
and systolic dysfunction. The life expectancy is limited and varies according to the underlying etiology with a median survival time of about 5 years after diagnosis. Myocarditis, immunologic abnormalities, toxic myocardial damage, and genetic factors are all assumed to be causes. Familial occurrence of DCM, mostly as an autosomal dominant trait, is more common than generally believed and is responsible for 20-30% of all cases of DCM. Candidate gene screening and linkage analyses in large families were successful in identifying 24 disease genes. There is a wide variability in the onset, course and severity of the disease even within the same family. In addition, genotype-phenotype correlations included only small numbers of affected. This implies that in most cases no conclusion can be drawn from the clinical manifestation of DCM to the responsible disease gene. Mutations in the
beta-myosin heavy chain
and in cardiac troponin T are common causes of pure familial DCM. DCM associated with conduction disease is mainly due to mutations in lamin A/C and X-linked DCM is often caused by mutations in dystrophin. All other disease genes are rare causes of familial DCM. Genetic screening in all known disease genes is not possible, but more efficient screening methods are awaited in the near future. Until then, clinical examination of family members and, in case of familial DCM, genetic counseling are recommended in the work-up of patients with idiopathic DCM.
...
PMID:[Familial dilated cardiomyopathy]. 1617 Jun 84
